Tabulator drive control



March 21, 1939. s, ALvlNE TABULATOR DRIVE CONTROL Filed Oct. 22, 1957 3 Sheets-Sheet l NVENTOR SAMUEL ALVINE TORNEY March 21, 1939. s. ALVINE TABULATOR DRIVE CONTROL Filed Oct. 22, 1937 3 Sheets-Sheet 2 FIGJO.

INVENTOR SAMUEL ALVINE March 21, 1939. 5, ALvlNE 2,151,177

TABULATOR DRIVE CONTROL Filed Oct. 22, 1937 3 Sheets-Sheet 3 FIG.4

SAMUEL ALVINE Patented Mar. 21, 19393 PATENT OFFICE 2.151.177 TABULATOR DRIVE CONTROL Samuel Alvine, Newark, N. .I., assignor to Remington Rand. Inc., Bufialo, N. Y., a corporation of Delaware Application October 22, 1937, Serial No. 170,351

4 Claims.

This invention relates to punched card tabulating machinery and particularly to the start-stop mechanism thereof as controlled by automatic total taking. A machine to which the present invention is adaptable is disclosed in the U. S. Patent to W. W. Lasker, No. 2,044,119, issued June 16, 1936, and in an application of W. W. Lasker, Serial Number 156,692, filed July 31, 1937.

As is fully described in the above patent and application total taking operations are initiated by a change of designation, i. e., a change in the data of particular fields of a card. Separate and distinct fields of the card are used for controlling the taking of totals and grand totals. If this data remains unchanged the machine accumulates the items from the cards until a change does occur at which time the card is held in the card chamber and the card feed is disabled until the machine has made three cycles for a total or four for a grand total. When the total has been taken the card is resensed and then fed out and a new series started. I

It is obvious however that eventually a condition will arise wherein all of the cards are exhausted from the card magazine and the last card is fed to the sensing chamber. When this card leaves the magazine, mechanism which will be described later, automatically stops the machine at the end of the cycle. The card is thus left in the sensing chamber and as a general rule this card is the end of a series and therefore will not initiate a total taking operation. This condition may be overcome by inserting two blank 35 card. One card being used to initiate a total or grand total operation and the other to insure the feeding of the first blank card into the sensing chamber. The first card due to the fact that 40 there is no data punched therein which amounts to a change of designation, will initiate a total or grand total operation depending upon the type of total the mechanism is set for. The use of the blank cards however is a nuisance and therefore 45 a great many operators use the starting button to cause the machine to pass through three or four cycles to obtain a total or grand total and get the last card out of the machine. This results in excess wear on the clutch mechanism.

With the present invention the machine operator instead of having to press the button a plu- 'rality of times with the consequent operation and release of the clutch mechanism each time, will merely have to press the button once and hold it 55 until the necessary number of cycles are efiected cards in the stack directly after the last item whereupon the button is released and the machine will stop.

Broadly speaking this invention includes a lever operable by the starting button of a tabulator, which lever is resiliently connected to the auto- 5 matic stopping mechanism of said tabulator and is adapted to render said automatic stopping mechanism ineffective as long as said starting button is actuated.

One object of the present invention is to pro- 10 vide means for rendering the automatic stopping mechanism of a tabulator inefiective as desired.

Another object of the present invention is to provide means adapted, under control of the start-stop button of a tabulator to enable the 15 initiation of a complete total taking operation by one actuation of said button instead of the customary three or more actuations.

Other objects and structural details of the present invention will be apparent from the following 20 description when read in connection with the accompanying drawings, wherein:

Fig. 1 is a fragmentary view of the left side of a tabulator base and illustrates the mechanism after the machine has automatically stopped for lack of cards in the supply magazine.

Fig. 2 is a View similar to Fig. 1 and illustrates the control button in its effective position whereat the automatic stop mechanism is held ineffective.

Fig. 3 is an enlarged fragmentary isometric View illustrating the connection of the present invention to the automatic stop pin mechanism.

Fig. 4 is a fragmentary elevational view illustrating the clutch tripping toggle mechanism in running position.

Fig. 5 is an elevational view of the inner toggle.

Fig. 6 is an elevational view of the outer toggle and its relation to the operating link.

Fig. 7 is an end view of the toggle mechanism taken from the front of the machine.

Fig. 8 is an elevational view of the toggle breaking lever.

Fig. 9 is an isometric View of the stop pin engaged by record cards in the magazine. r

Fig. 10 is a vertical section of the base of the tabulator showing some parts in side elevation.

The stopping and starting mechanism fora tabulator of the type disclosed in the above mentioned patent is old and is not claimed herein but will be described in order to clarify the basic structure upon which the present invention is built. As will be seen from Figs. 1, 2 and 4, a clutch engaging and disengaging arm [3, which is the same as the arm 45 in Fig. 5 of the above mentioned Lasker patent, is mounted fast upon the left-hand end of a shaft l2 which runs from side-to-side across the front of the machine and acts to engage or disengage the old and wellknown machine clutch which is not shown in the present application but which is clearly shown in Fig. 6 of the above patent. The clutch arm is is shown in detail with its associated. operating toggles in Fig. 4 of the present drawings. In Figs. 1 and 2, a cam l5, mounted upon the lefthand end of the main shaft it of the machine, normally lies in the position shown and is formed with a single short rise, which is adapted to contact a follower roller l9, mounted upon the right hand side of an arm [8 which is pivotally mounted on the casing 14. The arm 53 pivotally supports at its forward end, a vertical push-rod 24 which extends through a slot in a guide plate 8 fixed to the top of the frame casting I l, and is guided, by the slot, for vertical movement. An interponent arm 16 is pivoted to the middle portion of a lever H, which extends downwardly from its pivot point H and carries, at its bottom, a right angle lug 28. The interponent I6 is formed with a shoulder 22, on its upper edge and a recess 23 formed with a step portion 2|, in its lower edge and the push-rod 24, being in the same vertical plane as the interponent I6 is adapted under certain conditions to engage the interponent and elevate it.

The guide plate 8 provides a bearing on which the downwardly extending projection of interponent i5 is free to slide, when moved by the lever ll, after havingbeen released by the push-rod 24. Just above the interponent I6 is a lever 26 which has secured to its rear end, a block 25 which is adapted to be acted upon by the shoulder 22 on the interponent when it is desired to stop the machine. The lever 26 carries, at its forward end, a right angle lug 21, which overlies a lever 28 and which carries an adjusting screw as is old and well known. Both levers 25 and 28 areresiliently connected and are pivoted upon a rock shaft which is suitably supported by a casting (not shown) secured to the top of the frame casting M. The forward end of the lever 28 is pivoted to the top of an upright link 33, the lower end of which is pivotally secured by a short shaft 29 to the clutch arm l3. Thus, it will be seen that, if the interponent I6 is moved toward the rear of the machine and held there until the rise, on the cam l5, rocks the follower IS, the push-rod 24 will engage the step 2i on interponent l6 and the shoulder 22 thereof will contact the block 25 and swing the lever 26 clockwise (as seen in Fig. 1)

which, in turn, will swing the lever 28 in the same direction and force the link 30 downward to disengage the clutch.

The means for causing the interponent I16. to assume its effective position, i. e., with the step 2| aligned with push rod Mincludes a push button 32 which is normally pressed toward the front of the machine by a coiled spring (not shown) and which has a rearwardly extending stem 33., As will be seen from Figs. 1, 2, and 4, the rear end of the stem 33 is pivotallyconnected to the forward end of a link i l which is in turn pivoted at its rear end to a rock lever 35 which is pivotally mounted on the casting M. Pivoted to the upper end of the rock lever 35, are two adjacent levers 35 and 37. The forwardly extending lever 35 is formed with a hook at its forward end and is'tensioned clockwise (Fig. l) by a spring 33 which is anchored at its upper end to the lever 36 and at its lower end to a lug on the link 33. At its rear end, the lever 36 is formed with a leftwardly bent lug 39 which underlies the bell-crank 31 and limits its counter-clockwise move about their common pivot. A spring 19 anchored at its upper end to the lever 36 and at its lower end to the bell-crank 31, tends to constantly keep the bellcrank against the lug 39. The rear end of the bell-crank 31 is formed, as shown, with a notch for engagement with the lug 2!! of the arm I! and it will be seen that the spring 38 tends to rock both levers 36 and 3f clockwise, as shown in Fig. 2, so that the notch will clear the lug 29 when the machine is being started. When, however, the machine is operating, the levers 35 and 31 will be rocked counter-clockwise to a position in which the notch will be in a position to contact the lug 20 and move the interponent I5 toward the rear to stop the machine, as will now be explained.

Adjacent the right-hand or inner side of the link 35 are two toggles as will be clearly seen in Figs. l, 5, 6, and 7. The outer toggle, which lies flush with the right-hand side of the link 35, consists of two short links 40 and 4| which are pivoted together at 42. The upper link 45 of the outer toggle is pivoted at 59 to the link 35. The lower link 4! of the outer toggle is pivoted on a short shaft 29 one end of which extends through a slot 43 in the link 38 and is held against lateral movement by a keeper M. A spring 45 tends constantly to keep the toggle in its straightened position, in which position it limits against a pin 46 in the link 30 as shown in Fig. 6. The top end of the upper toggle link 40 is formed with a slot 52 which embraces a pin 55 (Fig. '7) which pin extends through the toggle breaking lever 55. The inner toggle is somewhat similar to the outer toggle. The upper link 48 thereof (see Fig. 5) is formed with an offset finger 53 and is pivoted to a lower link 49 by a pin 5|. A spring 51, similar to the spring 45, tends constantly to hold the inner toggle in its straightened position wherein a nose 58, on the upper link 48, limits against a pin 54 secured in theleft-hand face of the lower-link 59. The upper link 48 is pivoted on a stud 55 which is suitably secured in the left frame plate [4 of the machine. The toggle breaking lever 50, as will be seen from Fig. '7, lies directly between the outer and inner toggles and is pivoted upon the frame stud 55 and it will also be seen that, if the lever 50 is swung counter-clockwise, as seen in Fig. 4 the pin Bil will act to: break both toggles. Fig. 1 shows the normal or unoperated position of the toggle assembly, while Fig. 4 shows the toggles in the position they assume when the machine is operating. When the machine is running and the clutch is engaged, the clutch spring (not shown herein but designated by the reference numeral 34 in Fig. 6 of the drawings of the Patent 2,044,119) holds the inner toggle brokenas is shown in Fig. 4. The outer toggle is straight and, since this is so, the link 35 is in its uppermost position with the lower end of itsslot d3 occupied by the short shaft 29. Since the link 30 is in its upper position a pin 56, fast on its right-hand side, engages the underside of the hooked lever 36 and holds it in such a position that, if the stopping and starting button 52 were pushed in, the hook on the lever 36 would not engage the nose of the toggle breaking lever 55 or affect either. toggle. However, the rearward movement of the lever 35 would (Fig. 1) move the notch in lever 31, against the lug 28 of arm I! and move the arm a short distance rearwardly. This would move the shoulder 22 of the interponent l6, under the lug 25 on the lever 25 and would position the step 2! so that when the cam I next lifted the rod 24, the levers 26 and 28 would be rocked in a clockwise direction to push down the link 38. At this time the outer toggle is straight and the shaft 29 is. still in the lower end of the slot 43 in link 30, and, consequently, when the link is pushed down, the straightened outer toggle is also forced down thus pushing down the shaft 29 which rocks lever l3 and disengages the clutch (not shown) and allows the spring 6'! (Fig. 4;) to straighten the inner toggle. This toggle will now hold the clutch disengaged until the starter button 32 is again pushed Since the link 38 is now in its lower position, the pin 58, thereon, will allow the hooked lever 36 to assume its normal position. In its normal position the lever 36 is so located that, if the starter button 32 were pushed in, its hooked portion would contact the nose of the toggle breaking lever 50 and break both toggles. In its normal position the lever 36 would also be holding the spring pressed lever 3! in such a position that the notch, thereon, would clear the lug 20 on lever I! as is shown in Fig. 2. When both toggles are broken, as is the case when the machine is being started, the clutch spring overcomes the tension of the spring 4'! and the inner toggle remains broken as shown in Fig. 4. However, the outer toggle remains broken only for an instant. The action of its spring 45 immediately restores it to its normal position shown in Fig. 4.

In summation, when the machine is in normal unoperating position, both toggles must be broken to start it and the inner toggle then remains broken but the outer toggle immediately snaps to normal, unbroken, position raising the link 38 and the interponent it drops into contact with the limit plate 8. To stop the machine, the button 32 is-pushed in'again, and though the toggles are un'afieoted by this action, the interponent I6 is moved to its active position, i. e., with step 2| aligned with the push rod 24. When the cam I5 next raises the push rod 24, the levers 26 and 28 act to push down link 39, thus straightening the inner toggle, and thereby rocking arm l3 to disengage the clutch.

Looking at Figs. 2, 9 and 10 let it be assumed that supply magazine 3| contains a stack of cards. This stack of cards will bear upon the upwardl'y extending spring held pin 12 which is connected through arm 13, link M, to lever 75 which is pivoted on shaft II. The lever I5 carries a pin 1'! which cooperates with a lever 18 fixed to shaft ll upon which is also fixedly mounted lever I1. A fiat plate 85 of iron or other heavy material is placed on top of the card stack 86. As the cards are picked from the bottom of the stack and fed through rollers 81, the weight of the plate 85 will keep the pin '!2 depressed.

As may be readily seen in this View the weight of the cards on pin '!2 will rock lever 13 clockwise elevating link 14 and rocking lever 15 counter-clockwise which will release lever '!8 permitting lever to rotate counter-clockwise through its own weight to the position shown in Fig. 2. The rocking of lever I will draw interponent IE to the right into a position in which any elevation of rod 24 will be ineifective due to the step 2! being drawn out of alignment therewith.

As set forth above, when button 32 is actuated and hook member 33 travels rearwardly, latch member 3'! will also be shifted and will override the turned over lower portion 28 of lever I! on which interponent member [6 is mounted. Con- 76 sequently with latch member 3! in this position when pin 56 fixed in link 38 is raised, only hook member 36 will be rocked to its full extremity. However, when push button 32 is released spring 19 will cause latch member 3'! to snap into an effective position and on a second actuation of button 32, while the machine is running, said latch member will engage the lug 2!! on lever ll thus shifting interponent l6 rearwardly to a point whereat stop portion 2| overlies rod 24-and shoulder 22 thereof underlies lug 25 of lever 26. With interponent I6 in the position just described it may readily be seen that the next time the high point of cam 5 engages roller l9, rod 24 will be raised thus causing lever 26 to be positively rocked clockwise thereby forcing link 30 and the outer toggle which is connected thereto by rivet 59, downwardly consequently causing shaft I2 to be rocked counter-clockwise thereby disengaging the driving clutch (not shown). When link 38 through the outer toggle forces pin 29 of arm I3 downwardly, spring 4'! of the inner toggle will cause said toggle to be straightened and thereby lock the clutch in its disengaged position (Fig. 1).

As set forth in the above cited patent when the supply of cards in magazine 3| becomes exhausted pin 12 will be moved upwardly, passing by the cut off portion 88 of the plate 85 through the action of spring 84 to actuate arm 13, link is, levers 15 and I8, shaft ll, lever I1, and interponent IE to cause the disengagement of the driving clutch as shown in Fig. 1.

The present invention comprises a bracket 65 (Fig. 1) fixed to frame !4 and adapted to pivotally support a cam lever 88'. Fixed to the lower end of lever I! (Fig. 3) is a supporting member 6! having a horizontally extending hole therethrough, of such a diameter as to loosely receive a connecting rod 68. As may be seen in Fig. 1, rod. 68 is connected at one end to cam lever 66 by a spring 69 and the other end is positioned in the hole of support 6! by an adjustable collar 18. The free fitting of rod 68 in support 8! is essential to permit free movement of the automatic stopping mechanism just described. It is also essential that, with push-button 32 released and lever l1 in its rearmost position, there is no tension upon spring 69. Still further it is essential that spring 69 be strong enough to overcome the tension of spring 84 when pushbutton 32 is actuated.

With the driving mechanism at rest because of the exhaustion of the card supply in magazine 3! (Fig. 1), pressing and holding button 32 will cause adjustable collar I! mounted upon shank 33 to be moved rearwardly against the cam sur- 1 face of lever 68 which will consequently be rocked in this view, because of the superior strength of spring 69 over that of spring 84 the machine will continue to run as long as the push-button 32 is maintained in its actuated position, irrespective of the fact that the supply of cards has been exhausted, thus obviating the necessity of repeated actuations of button 32.

While I have described what I consider to be a highly desirable embodiment of my invention, it is obvious that many changes in form could be made without departing from the spirit of my invention, and I, therefore, do not limit myself to the exact form herein shown and described, nor to anything less than the whole of my invention as hereinbefore set forth, and as hereinafter claimed.

What I claim as new, and desire to secure by Letters Patent, is:

1. In a device of the class described, a record card controlled machine including a driving mechanism, a card supply magazine, a plurality of record cards adapted to be positioned in said magazine, means for feeding said plurality of cards seriatim, means controlled by the last of said plurality of cards to be fed from said magazine to render said driving mechanism ineifec tive and means adapted to render said last mentioned means inefiective.

2. In a device of the class described, a record card controlled machine including a driving mechanism, a card supply magazine, a plurality of cards adapted to be positioned in said magazine, a push-button adapted to cause the engagement and disengagement of said driving mechanism, means for causing said plurality of cards to be fed seriatim, means controlled bythe last of said cards to be fed to cause said driving mechanism to become ineffective, and means controlled by said push-button to render said last mentioned means ineifectiveQ 3. In a machine of the the class described, controlled by record cards passed through the machine, the combination of a supply magazine when said supply magazine is empty for condiw tioning said disabling means for operation, and means for rendering said sensing pin ineffective.

4. In a machine of the class described, the combination of drive mechanism therefor, a power source for said drive mechanism, a machine clutch connecting said drive mechanism and said power source, means for shifting said clutch to disengaged position whereby said drive mechanism is disconnected from its power source, a reciprocable element operable by said drive mechanism for operating said shifting means, an interponent intermediate said reciprocable element and said shifting means, said interponent being movable relatively theretoto render said element either effective or ineffective to operate said shifting means, a resilient means for moving said interponent to eifective position, a second resilient means for moving said interponentto ineffective position, said second resilient means being superior to said first resilient means but normally relaxed, a manually operable push' button, and means operable by said push button for tensioning said second resilient means whereby said interponent is held in ineffective position as long as the push button is held operated.

SAMUEL ALVINE. 

